Smart materials for noise and vibration damping in high-speed rail systems: A comparative analysis

Effective noise and vibration control remains a critical challenge in high-speed rail systems, directly influencing passenger comfort and the longevity of infrastructure. This study evaluated four advanced materials—piezoelectric materials, shapememory alloys (SMAs), magnetorheological (MR) fluids, and damping composites—focusing on their potential for mitigating noise and vibration in high-speed rail applications. A combination of experimental and simulation-based analyses was employed to assess these materials based on their noise reduction coefficient, vibration transmissibility ratio, thermal stability, and durability under varying environmental conditions. The findings revealed that damping composites and SMAs demonstrated superior performance, offering enhanced noise attenuation and vibration control compared with the other materials. Damping composites exhibited the highest noise reduction and stability across a wide frequency range, while SMAs demonstrated exceptional adaptive damping properties under fluctuating temperature conditions. In contrast, piezoelectric materials and MR fluids showed moderate performance, making them more suitable for secondary damping applications. This study identifies damping composites and SMAs as the most effective materials for primary noise and vibration control in high-speed rail systems. The findings provide valuable insights for material selection and integration in rail infrastructure, contributing to enhanced system performance, reduced maintenance costs, and compliance with stringent noise and vibration regulations.

Dr. Hyginus Chidiebere Onyekachi Unegbu is a distinguished academic and researcher with a robust educational background and extensive expertise in engineering and project management. He holds a Bachelor of Engineering (B.Eng.) in Mechanical/Production Engineering, a Master of Science (MSc) in Project Management, a Master of Philosophy (MPhil) in Engineering Management, and a Doctor of Philosophy (PhD) in Engineering Management from Ahmadu Bello University, Nigeria. With over 30 publications in reputable international journals, Dr. Unegbu has made significant contributions to the fields of sustainability and construction project management. His research focuses on innovative strategies to enhance project efficiency, sustainability, and resource optimization in construction and engineering projects. A dedicated scholar, Dr. Unegbu continues to influence the academic and professional communities through his research, mentorship, and commitment to advancing knowledge in engineering management and sustainable development.